School of Health Sciences, Macao Polytechnic Institute, Macao.
Int J Pharm. 2011 Feb 14;404(1-2):148-58. doi: 10.1016/j.ijpharm.2010.11.027. Epub 2010 Nov 19.
Spray-freeze-drying (SFD) of oleanolic acid (OA), a BCS Class IV compound, with polyvinylpyrrolidone-40 (PVP-40) as stabilizer and sodium caprate (SC) as wetting agent and penetration enhancer produced kinetically stable, amorphous solid dispersion systems with superior in vitro dissolution performance, and better and more uniform absorption in comparison with commercial OA tablet. Relative to the SC-free formulation, the presence of SC in the formulation resulted in a significant increase in the in vivo absorption rate of OA while exerting no apparent impact on the extent of OA absorption. The SFD-processed OA formulations and commercial OA tablet generally exhibited large inter-animal variability in oral bioavailability, consistent with the absorption characteristics of BCS Class IV compounds. Inclusion of SC coupled with the replacement of OA with its sodium salt (OA-Na) in the formulation was shown to substantially decrease the observed absorption variability. Above results suggested that increases in both dissolution rate and intestinal permeability of BCS Class IV compounds, as exemplified by the SFD-processed dispersion system containing both OA-Na and SC, are critical to reducing the large inter-individual absorption variability commonly observed with this class of drugs.
喷雾冷冻干燥(SFD)法将熊果酸(OA),一种 BCS 分类 IV 化合物,与聚乙烯吡咯烷酮-40(PVP-40)作为稳定剂和癸酸钠(SC)作为润湿剂和渗透增强剂一起使用,可生产出具有动力学稳定性的无定形固体分散体系,其体外溶解性能优异,与市售 OA 片剂相比,吸收更好且更均匀。与不含 SC 的配方相比,配方中存在 SC 可显著提高 OA 的体内吸收速率,而对 OA 吸收的程度没有明显影响。SFD 处理的 OA 配方和市售 OA 片剂通常在口服生物利用度方面表现出较大的个体间变异性,与 BCS 分类 IV 化合物的吸收特征一致。研究表明,包含 SC 并在配方中用其钠盐(OA-Na)替代 OA,可显著降低观察到的吸收变异性。上述结果表明,增加 BCS 分类 IV 化合物的溶解速率和肠道通透性,如同时包含 OA-Na 和 SC 的 SFD 分散系统所示,对于降低此类药物常见的个体间吸收变异性至关重要。
